Sailor Palm Device

ABSTRACT

A sailor palm electronic device holder has an extended central region. This region has forward and rear sets of attachment materials to permit engagement of the device over the hand of a user. A fixed or rotationally enabled support surface is embedded with the central region that has support materials inserted therein. Strengthener support is provided on the sides of the device about the edges of a user&#39;s hand and or the rear of the device between the rear strips so as to protect from overs rotation of the device.

CROSS REFERENCE TO RELATED APPLICATION

This application claims priority from U.S. provisional application61/917,223 filed on Dec. 17, 2013 herein incorporated by reference. Thisapplication claims priority from U.S. provisional application 61/927,631filed on Jan. 15, 2014 herein incorporated by reference. Thisapplication claims priority from U.S. provisional application 62/074,345filed on Nov. 3, 2014 herein incorporated by reference.

FIELD OF THE INVENTION

The present invention relates to an electronic device accessory; moreparticularly, this invention relates to an accessory that is wearable onthe hand of the user.

BACKGROUND OF THE INVENTION

Electronic devices are carried in a variety of ways on the human body.In particular, holsters have been designed that have a clip that permitsa user to slip the aforementioned onto a belt or waist band engaging theclip's jaws so as to mount the holster thereon. Other types of carryingdevices include a small purse for housing the electronic device asdesigned by Lori Grenier of SharkTank fame.

However, no solution has dealt with the ability to both carry andutilize the electronic device simultaneously; in other words, one wouldlike to be able to transport the device on his or her person from onelocale to another whilst using the device to text, talk, listen tomusic, view video etcetera without having to disengage it from a belt,search for it in a purse or pocket.

Neither has there been a solution that permits a user to easily supportthe electronic device on a flat surface so as to permit stabilization ofimages obtained from the camera at the back of the electronic device.

Accordingly, there needs to be some solutions to overcome theaforementioned.

SUMMARY OF THE INVENTION

The present invention overcomes the deficiencies of the known art andthe problems that remain unsolved by providing and SAILOR PALM DEVICE.

An electronic device carrier comprising: a first main strip of materialhaving a first strip of material attached to a right forward portionthereof a second strip of material attached to a left forward portionthereof. It also has a second main strip of material attached to thefirst one having a third strip of material attached to a back rightportion of the second main strip of material thereof and a fourth stripof material attached to a back left portion of the second main strip ofmaterial thereof. Also, a rotational device embedded between the firstand second main strips of material; a electronic device holder attachedto the rotational device through a device integral with the rotationaldevice; wherein the rotational device comprises: a spring activateddevice, a tooth and groove device, a disk snap button activated device.Further, wherein the first main strip of material has a strengthenerattached thereto; wherein the second main strip of material has astrengthener attached thereto; wherein the first main strip of materialhas a piece of material having a thumb opening before the strengthener;wherein the second main strip of material has a piece of materialattached having a thumb opening before the strengthener; a piece ofmaterial having a thumb hole attached to the first main piece ofmaterial; a piece of material having a thumb hole attached to the secondmain piece of material.

An electronic device portability unit comprising: an upper slab ofmaterial a lower slab of material attached to the upper slab of materialforming a layered package a set of two front and a set of two backstrips attachment strips where the set of two front strips is attachedone to a right lateral forward portion and one to a left lateral forwardportion of the layered package and the set of two back strips isattached one to a right lateral back portion and one to a left lateralback portion of the layered package. It also has a rotational deviceinserted in the layered package; a piece of material having a thumb holeattached to a side of the layered package; a set of materials having aside strengthener embedded therein attached to the layered package; aset of materials having a back strengthener embedded therein attached toa portion between the upper and the lower slabs of material making upthe layered package.

A rotational hand attachment device comprising: a layered rear palmsupport device having two forward and two rear attachment materialsattached thereto and a rotational device embedded within the layeredrear palm support device. It also has a material piece having a thumbhole therein attached to the layered rear palm support device and one ofthe forward attachment materials and to one of the rear attachmentmaterials.

These and other aspects, features, and advantages of the presentinvention will become more readily apparent from the attached drawingsand the detailed description of the preferred embodiments, which follow.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1A presents an embodiment of an sailor palm device. FIG. 1Bpresents a top view of an embodiment of a modified sailor palm device.FIG. 1C presents another option of having a cover 7 a for the deviceattached at and end to the another piece of material extending down inthe drawing. FIG. 1D presents an embodiment where the mid portion of thesailor palm device is extended to include the bottom holder or box. FIG.1E presents a top view of a device holder 8 usable in an embodiment.FIG. 1F presents a side view of a rotatable assembly for the deviceholder in an embodiment. FIG. 1G presents a top view of a supportsurface useable for embedding it in a glove shown herein. FIG. 1Hpresents an isometric view of a device holder having an integral supportsurface. FIG. 1I presents a top view of a device holder having anintegral support surface.

FIG. 2A presents a top isometric view of a glove having an integralelectronic device holder. FIG. 2B presents a side isometric view of aglove having an integral electronic device holder.

FIG. 3A presents a top isometric view of a fixed or rotatable glove inan embodiment.

FIG. 3B presents a side isometric view of a fixed or rotatable glove inan embodiment. FIG. 3C presents a top down view of a fixed or rotatableglove in an embodiment. FIG. 3D presents a top view of an electronicdevice holder used in a rotatable or fixed fashion in an embodiment.FIG. 3E shows another top view of an electronic device holder used in arotatable or fixed fashion in an embodiment. FIG. 3F shows another topview of an electronic device holder used in a rotatable or fixed fashionin an embodiment. FIG. 3G shows another top view of an electronic deviceholder used in a rotatable or fixed fashion in an embodiment.

FIG. 4A presents a side view of an electronic holder as a slab having arotational device connected thereto in an embodiment. FIG. 4B presents aside view of a braking cage for the rotational device in an embodiment.FIG. 4C presents a side view of a rotational device disconnected from aslab in an embodiment. FIG. 4D shows a side view of a spring foractuation of the rotational device in an embodiment. FIG. 4E presents aside view of a a rotational device disconnected from a slab where thespring has been mounted thereon in an embodiment. FIG. 4F presents aside view of an assembled rotational slab, device, and braking cage asthe slab is compressed downwards in an embodiment. FIG. 4G presents atop view of rotational device in an embodiment. FIG. 4H presents a topview of a braking cage in an embodiment. FIG. 4I presents a top view ofa braking cage in an embodiment having an assembly shaft. FIG. 4Jpresents a side view of an assembled rotational slab, device, andbraking cage as the slab is in its rest state with a decompressed springin an embodiment. FIG. 4K presents the edge pylons of a braking cage inan embodiment. FIG. 4L presents how the edge pylons of a braking cageare engaged to the top portion of the cage in an embodiment.

FIG. 5A is a side view of a rotation system 15 comprising a topelectronic device holder 15 a and a bottom support surface 15 b in anembodiment. FIG. 5B shows a closeup view of the cylinder 15 c extendingout the bottom of the device holder 15 a in an embodiment. FIG. 5C showsa bottom view of cylinder 15 c head at the bottom portion of theelectronic device holder 15 a in an embodiment. FIG. 5D is a perspectiveview of the bottom support surface 15 b having a raised cylinder 15 gand one or more perforations for gluing/sewing to the sailor palmmaterial in an embodiment. FIG. 5E is a closeup view of the top innerportion of the cylinder 15 d of the bottom support surface 15 b in anembodiment.

FIG. 6A is a perspective view of a modified sailor palm device 16 havinga zipper and clear working screen in an embodiment. FIG. 6B is aperspective view of a modified sailor palm device 17 having a magneticflap and clear working screen in an embodiment. FIG. 6C is a side viewof a modified sailor palm device having round finger holes in anembodiment. FIG. 6D is a front view of a sailor palm device having roundfinger holes in an embodiment.

FIG. 7A is a perspective view of a sailor palm device having a holderinserted in a cover with a zipper 20 a and clear working screen in anembodiment. FIG. 7B is a perspective view of a sailor palm device havinga magnetic flap and clear working screen in an embodiment; this devicehas a holder 20 b inserted in a cover with a magnetic flap and clearworking screen in an embodiment. FIG. 7C is a bottoms up view of theunderside of a sailor palm cover showing how it is removable in anembodiment.

FIG. 8A shows a perspective view of a support surface sewn into a sailorpalm device formed from a rectangular piece of plastic 22 having variousfeatures that are used to engage a rotating cell phone device holderwithin it in an embodiment. FIG. 8B shows a perspective view of therotation device 23 made of an integral piece of plastic having a cellphone holder 23 e connected to the main circular rotator 23 c through acircular cylinder 23 f in an embodiment. FIG. 8C shows a top view of therotation device 23 having a electronic device holder 23 e there atopthough not all aspects of the holder 23 e are shown for simplicity; itis assumed that various raised protrusions are included therein forholding it in the holder in an embodiment. FIG. 8D shows a side view ofthe main rotator 23 c is connected to the holder 23 e through a cylinder23 f. At the bottom of the main rotator is a support cylinder 23 d thatis inserted in 22 f for stability in an embodiment.

FIG. 9A shows a modified sailor palm device having a side strengthenerin an embodiment. FIG. 9B shows a closeup of the strengthener from FIG.9A in an embodiment. FIG. 9C shows a closeup of a portion of the backportion of another strengthener in an embodiment. FIG. 9D shows a sailorpalm device having a side strengthener in an embodiment.

FIG. 10A is a side view of a modified version of the device in FIG.5A-5B in an embodiment. FIG. 10B is a closeup perspective view of anactuation device showing how an L shaped device 26 d on the actuationdevice 26 c engages depressions on the inside of the cylinder of thesupport surface in an embodiment. FIG. 10C shows a closeup view of anactuation device having a slightly angled L shaped member in anembodiment. FIG. 10D shows a side view of the actuation device withinthe cylinder of the holder and within the cylinder of the supportsurface along with a spring device in an embodiment.

FIG. 11A shows a conceptual front view of a electronic device holder foruse with the rotating sailor palm devices herein described. Arectangular center cutout on the holder for permitting picture takingwhilst attached to the palm of a user's hand thereby providing a muchmore stable surface than jittery fingers because you are using yourupper arm muscles to stabilize it with a relatively flat surface, i.e.,the back of your hand. FIG. 11B shows a conceptual front view of aholder having a cutout located on one side of the holder or it can justas easily be located on the other side. FIG. 11C shows a process ofmaking a holder that facilitates a user taking pictures whilst havingthe ability to be stabilized on the hand. FIG. 11D shows a dynamic viewof the user taking a picture through a hole in the holder using the backof palm as a stabilizer after rotating it into position.

FIG. 12A shows a rotatable holder perspective showing various dooropening features in an embodiment. FIG. 12B shows an opening device forthe door of FIG. 12A. FIG. 12C shows an alternative door openingfeature. FIG. 12D shows an alternative door opening feature used withthat of FIG. 12C. FIG. 12E shows a top view of a door. FIG. 12F shows aside view of a door opening feature. FIG. 12G shows a top vie of a doorin another embodiment. FIG. 12H shows a side strengthener wing sewn intoa sailor palm device. FIG. 12I shows the strengtheners sewn into bothside edges of a sailor palm device for spreading around the edges of ausers hand for rotation protection. FIG. 12J shows a set of raisedprotrusions on the bottom plate or floor after the camera hole butbefore the door or in lieu of the door that block exit from the theholder.

DETAILED DESCRIPTION

The following detailed description is merely exemplary in nature and isnot intended to limit the described embodiments or the application anduses of the described embodiments. As used herein, the word “exemplary”or “illustrative” means “serving as an example, instance, orillustration.” Any implementation described herein as “exemplary” or“illustrative” is not necessarily to be construed as preferred oradvantageous over other implementations. All of the implementationsdescribed below are exemplary implementations provided to enable personsskilled in the art to make or use the embodiments of the disclosure andare not intended to limit the scope of the disclosure, which is definedby the claims. For purposes of description herein, the terms “upper”,“lower”, “left”, “rear”, “right”, “front”, “vertical”, “horizontal”, andderivatives thereof shall relate to the invention as oriented in eachfigure. Furthermore, there is no intention to be bound by any expressedor implied theory presented in the preceding technical field,background, brief summary or the following detailed description. It isalso to be understood that the specific devices and processesillustrated in the attached drawings, and described in the followingspecification, are simply exemplary embodiments of the inventiveconcepts defined in the appended claims. Hence, specific dimensions andother physical characteristics relating to the embodiments disclosedherein are not to be considered as limiting, unless the claims expresslystate otherwise.

FIG. 1A presents an embodiment of a sailor palm device. The device ismade of a strip of material 1 typically an elongated piece of materialsuch as leather, vinyl, polyester, linen, nylon or similar materialsending in a larger portion of slightly upwardly sloping material. Thestrip 1 is designed to be wrapped about a human hand with a hole 2 forthe insertion of a thumb to assist in holding the strip 1 to the hand. Apiece of hook or loop velcro material 3 a and its base material isattached via sewing or glue to the portion of material 1 underneath thehole 2. A corresponding piece of loop or hook velcro material 3 b issimilarly attached to the underside of the left side of the strip ofmaterial 1; this permits the engagement of the velcro loops or hooks 3 awith its conjugate 3 b when the strip 1 is wrapped about the hand. Thestrip of material 1 is optionally made from a sandwich of two stripsthat are sewn along an edge thereof. Further padding such as foam,rubber, neoprene or other materials are sewn between the two optionalstrips and about the support surface for the electronic device holder asdescribed below and as necessary.

Atop the elongated strip of material 1 is a bottom holder or box 4 forholding the base of an electronic device made from an integral plasticpart; this bottom holder has two side walls 4 a, 4 b, a bottomrectangular wall that blends into a front rectangular wall 4 c facingoutwards from the page. The bottom wall meets the top surface of theelongated strip 1 along an edge whereas it meets the two side wall 4 a,4 b along the extreme edges along its shorter portions; it also meetsthe front rectangular wall 4 c along a long edge thereof. The frontrectangular wall 4 c meets the two side walls 4 a, 4 b along the extremeedges of the rectangular front wall 4 c and each along another edge ofthe side walls. The two side walls meet the top surface of the elongatedstrip 1 along another edge each of the side walls 4 a, 4 b. This bottomholder or box 4 is glued together as described to created a bottomholder for an electronic device.

Alternatively, leather pieces are shaped as a small box protruding fromthe top of the elongated strip 1 or leather pieces are shaped as a smallbox protruding from the top of the elongated strip 1 and plastic insertsare attached via glue providing additional to the rigidity of the piece.A final alternative is to have a flat piece of plastic inserted parallelto the elongated strip 3 in a slot cutout of the material surface of thesame. The plastic is inserted therein to provide support for the boxabove formed from the walls herein described using glue attached to thebox or the flat piece of plastic is integral with the box. An integraltype of this form is shown in FIG. 1H-1I.

Various alternatives to this embodiment are now described. Each of theseare combinable in any permutation or combination possible with any ofthe other embodiments taught within the entire body of this writingwhether before or after this statement. The velcro attachments arereplaceable with a belt type buckle attachment having a prong and frameattached to one side where the velcro once was; and a hole will benecessary on the other side where the other velcro component once was.The entire device can be created atop a glove. The glove can have mostof the finger coverings portions removed or even not included at allhaving an opening thereof across all the finger portion leaving the sideof the hand and the thumb inserted within the hole to support theholding of the glove to the hand. Another alternative is where a simplestrip is shown having the box or bottom holder attached thereto. It isassumed that all of the necessary connectors are included thereon likevelcro, or buckle prong hole, etc. This strip is attachable atop a handof a user. It should be understood that whilst the drawings are directedto a left hand, a mirror or complementary embodiment is available to theother hand in all embodiments taught herein.

FIG. 1B presents a top view of an embodiment of a modified sailor palmdevice.

Here another piece of material extends downwards in the drawing from themain portion of the strip 1 forming an additional surface to attach thedevice. Two L shaped side walls 5 a, 5 b are formed from leatherreinforced with or without glued on plastic or plastic side walls thathave a support surface embedded in a sandwich of top and bottommaterials in the another piece of material extending downwards. Twostrips of velcro support material 6 a, 6 b are attached via sewing tothe two far sides of the another piece of material extending downwards.

FIG. 1C presents another option of having a cover 7 a for the deviceattached at and end to the another piece of material extending down inthe drawing. Side walls of this cover are formed by 7 b, 7 c, 7 d.However, this embodiment is limited in that the device rides up the arma condition that is difficult whilst wearing a suit or long sleeveshirt. FIG. 1D presents an embodiment where the mid portion of thesailor palm device is extended to include the bottom holder or box 4 foran electronic device and the two side walls 5 a, 5 b that are embeddedin a sandwich of materials as described previously and in other parts ofthis description with regards to similar arrangements. Also, the thumbhole side of the device has been reduced in size to balance it with theleft side thereof. As a further option, another piece of velcro can beplaced nearby the thumb hole region (and a corresponding one on the leftside) well above the first piece that is underneath it; this by makingregions of the thumb hole and the left side larger to a similar sizelike the central region.

FIG. 1E presents a top view of a plastic device holder 8 usable in anembodiment.

The holder 8 has two side 8 a, 8 b and one bottom 8 c curved raised or Lshaped protrusions integral with the bottom plate of the holder thatengage an electronic device in a holder 8. FIG. 1F presents a side viewof a rotatable assembly for the device holder in an embodiment; thebottom plate of the device has a mushroom shaped downwards extendingprotrusion 8 d that is inserted in a column 8 f having threadsexternally and a several cutouts in its body; this column 8 f isintegral with a support surface 8 g that is sewn, glued or otherwiseembedded in the materials of a sailor palm sandwich of a top and bottommaterials, and intervening materials of nylon, leather, vinyl andsimilar types. Finally, a ring 8 e having internal threads is placed andtwisted about the column 8 f as the protrusion 8 d is inserted thereinso as to compress the column 8 f and lock the protrusion 8 d in place.

FIG. 1G presents a top view of a support surface useable for embeddingit in a glove shown herein; one or more horizontal 8 i and vertical 8 hcutouts are useful for gluing and or sewing. FIG. 1H presents anisometric view of a U shaped device holder 9 a having an integralsupport surface 9 b; material of the top surface of the sailor palmdevice are brought into close proximity by gluing of the device holder.FIG. 1I presents a top view of a device holder having an integralsupport surface; L shaped protrusions 5 a, 5 b sit atop the supportsurface 5 c; can be thought of as top view of FIG. 1B, 1C, 1D, 1H.

FIG. 2A presents a top isometric view 10 of a modified glove having anintegral electronic device holder. A modified workout glove 11 having itfinger ‘round’ tubes removed except for its thumb round is shown with aholder or box integrated with the top thereof The material for thepanels are leather, nylon, vinyl and similar materials with or withoutglued plastic reinforcement. A back panel 10 d is sewn to the top partof the glove, to two side panels 10 b, 10 c and to a top panel 10 a; theside panels 10 b, 10 c are further sewn to the glove 11 and to the toppanel 10 a. The forward portion of the side panels 10 b, 10 c and thetop panel 10 a forms an opening 10 g that is covered by a two part flap10 e, 10 f Flap part 10 e is sewn to the glove appropriately between thetwo side panels 10 b, 10 c and to the flap 10 f. The top part 10 f hasan magnet or magnetically affected material that is affected by magnetor magnetically affected materials that are sewn into the top panel 10a. FIG. 2B presents a side isometric view FIG. 2A of a glove having anintegral electronic device holder. Here the glove can be modifiedfurther to open it up so that there is almost no palm portion underneathallowing for enhanced breathability. At the forward and back portion ofthe glove there is now two sets of velcro engaged strips 12 c,d, 12 a, bof material sewn or integrated thereto. These like FIG. 6A, 6B, 7A, 7B.

FIG. 3A presents a top isometric view of a fixed or rotatable glove inan embodiment.

A glove in the shape of a modified workout glove (having finger portionsremoved but with thumb part still there or removed) has a fixed orrotatable electronic device holder therein as described further in thespecification. One or more sets of two velcro providing strips ofmaterial are used as attachment mechanisms are used in lieu of having acomplete glove on the bottom; in other words the palm side of the gloveis optionally removed to permit a user to have airflow there duringnormal use; this helps in office or hot climate situations. A holder 10i having a bottom body integrated with a U horizontally shape ofvertically L shaped raised protrusion as in FIG. 3C, 10 k, 10 d, FIG. 1I5 a, 5 b for holding the electronic device. FIG. 3B presents a sideisometric view of a fixed or rotatable glove in an embodiment showingthe central column 10 h for attaching fixedly or rotationally thereto;not shown is a plastic support surface embedded in the glove usingsewing, adhesives, and or glues. FIG. 3C presents a top down view of afixed or rotatable glove in an embodiment. This view shows the supportsurface 10 j to be embedded in the a sandwich of materials in the glove.Also shown are curved L shaped protrusions 10 k, 101.

FIG. 3D presents a top view of an electronic device holder used in arotatable or fixed fashion in an embodiment; this has two raised midside wing protrusions and a small bottom protrusion in L shapes that areintegral with a base plate thereby gripping the side and bottom of theelectronic device. FIG. 3E shows another top view of an electronicdevice holder used in a rotatable or fixed fashion in an embodiment;this has a bottom U shaped protrusion that is integral with a base platethereby gripping the bottom side of the electronic device that isintegral with a base plate. FIG. 3F shows another top view of anelectronic device holder used in a rotatable or fixed fashion in anembodiment; this has two raised top side wing protrusions and a largebottom protrusion in L shapes that are integral with a base platethereby gripping the side and bottom of the electronic device. FIG. 3Gshows another top view of an electronic device holder used in arotatable or fixed fashion in an embodiment; this has two raised topside wing protrusions and a bottom U shaped protrusion that are integralwith a base plate in L shapes thereby gripping the side of theelectronic device that are integral with a base plate. The L shapes areas in FIG. 1I, 5 a, 5 b or FIG. 3C 10 l, 10 k.

FIG. 4A presents a electronic device holder represented as a slab ofmaterial having a rotational device connected thereto in an embodiment;it should be understood that this ‘slab’ 13 has upward protrusions thatform a holder like FIG. 1 h-1I, 3B-3G, 12A or similar holders. This isintegral with or attached to a rotational device on its underside. Theplastic rotational device is permanently attached (adhesives orintegrally formed from a molded plastic or screwed on) to the back ofslab 13 or attached thereto in some similar fashion.

The rotational device has a short solid axis 13 a extending upwards thateither is integrated with the back of 13 or is screwed on using threads13 e to matching threads internal to a bottom cavity in slab 13. Therotational device then has a larger circular area 13 b at its midpointthat has circular or oval depressions 13 c on its top surface; then thedevice proceeds to a thinner circular axis 13 d that is used as a springmount as described below.

Diverting attention for a moment, as an optional embodiment wherebythere is no rotation, axis 13 d is removed so that the rotational deviceends in a circular support 13 b. This is inserted within the nylon,leather, neoprene, spandex, cotton or other material and sewn in placemaking up a multi layer sandwich of materials of the sailor palm device.Optionally, instead of having depressions 13 c there are cutouts thereinso that more sewing can be applied to the device to the material of thesupport surface making up the sailor palm device. Thus, a circularcutout about the size of axis 13 a in this leather/vinyl/neoprene/nylonis made and the circular support 13 b inserted therein; additionallateral cutouts are made to support its insertion and then sewing ismade through the cutouts in the circular support to the various sandwichlayers to fix it in place. The support 13 b can be made rectangular,oval or any convenient shape. Additional sewing is applied as necessaryto the rims thereof to secure it to the top of sailor palm device.

Returning to our rotational embodiment discussion, FIG. 4B presents aside view of a braking cage for the rotational device in an embodiment.The braking cage has a rectangular top slab 14 having a central circularperforation 14 a therein and several oval or circular protrusions 14 bconcentrically arranged about the perforation 14 a on the bottom surfaceof the slab 14. Also, the braking cage has four pylons 14 c attached atits vertices to a bottom rectangular plastic slab 14 d matching the topslab 14. These pylons 14 c are either integral with orattachable/detachable to and from the slabs 14/14 d at their vertices.

FIG. 4C presents a side view of a rotational device disconnected from aslab in an embodiment. The rotational device has a short solid axis 13 aextending upwards that either is integrated with the back of 13 or isscrewed on threads 13 e to matching threads internal to a cavity on theback of slab 13 thereto. The rotational device then has a largercircular area 13 b at its midpoint that has circular or oval depressions13 c on its top surface; then the device proceeds to a thinner circularaxis 13 d that is used as a spring mount.

FIG. 4D shows a side view of a spring for actuation of the rotationaldevice in an embodiment to be mounted on a circular axis 13 d. FIG. 4Erepresents a side view of a a rotational device disconnected from a slabwhere the spring has been mounted thereon in an embodiment. FIG. 4Fpresents a side view of an assembled rotational slab, device, andbraking cage as the slab is compressed downwards in an embodiment. Thedevice is assembled by placing the top axis 13 a through the perforation14 a whilst the spring is mounted on 13 d. Optionally there is adepression in the bottom slab 14 d to match the axis 13 d therebypreventing a sliding effect of the device.

FIG. 4G presents a bottoms up view of rotational device 13 b in anembodiment. The circular brake 13 b has several depressions 13 cconcentrically arranged about the two center axis 13 a, d that are shownwith identical sizes. FIG. 4H presents a bottoms up view of a brakingcage top slab 14 in an embodiment. Here the top slab 14 has a centralperforation and several concentrically arranged protrusions 14 b. FIG.41 presents a bottoms up view of a braking cage top slab 14 in anembodiment having an assembly cutout. This view has protrusions arrangedas in 4H but are not shown for simplicity. A cutout 14 e is arranged inthe slab 14 to permit easy assembly of the device so that a rotationaldevice can be slid into place.

FIG. 4J presents a side view of an assembled rotational slab, device,and braking cage as the slab is in its rest state with a decompressedspring in an embodiment. FIG. 4K presents the edge pylons of a brakingcage in an embodiment whereby they are separable. A separable pylon hasa plastic main body 14 c and a spherical ends 14 e that have been cut topermit them to be flexible; alternatively, there are no cuts if addedrigidity is desired. FIG. 4L presents how the edge pylons of a brakingcage are engaged to the top portion of the cage in an embodiment. Thesespherical portions 14 e are inserted in cavities at the vertices of thetop slab 14, and or bottom slab 14 d.

It should be understood that any of the teachings herein, features, ordevices are combinable in any fashion possible. For example, therotation teachings of these figures are applicable to any of the sailorpalms taught herein (or gloves) instead of any preexisting holderalready taught.

FIG. 5A is a side view of a rotation system 15 comprising a topelectronic device holder 15 a and a bottom support surface 15 b eachmade from integral plastic such as PVC, ABS or similar materials; thebottom support surface 15 b is affixed to the sailor palm extendeddevice by glues and sewing in perforations 15 h for actuation by a userrotating between 15 a and 15 b. A cylinder 15 c extending out the bottomof the holder 15 a has arrowheads 15 e about its outer surface forengagement under a ledge 15 g in a central cylinder 15 d extendingupwards from the support surface 15 b. One or more perforations 15 h inthe support surface 15 b are intended for sewing to the extended palmdevice.

FIG. 5B shows a closeup view of the cylinder 15 c extending out thebottom of the device holder 15 a. The cylinder has arrow headedprotrusions 15 e that slide into a hole in the upwards directed cylinder15 d; the protrusions top portion engages under the lip 15 i of a ledge15 g. A tooth 15 f at the outer surface of the cylinder engagesdepressions within the top portion of the cylinder 15 d. FIG. 5C shows abottom view of cylinder 15 c head at the bottom portion of theelectronic device holder 15 a. FIG. 5D is a perspective view of thebottom support surface 15 b having a raised cylinder 15 d and one ormore perforations 15 h for gluing/sewing to the sailor palm material.

FIG. 5E is a closeup view of the top inner portion of the cylinder 15 dof the bottom support surface 15 b. There are various depressions 15 jfollowed by raised portions 15 k about the inner surface and above thelip 15 i of a ledge extending inwards towards the center of the cylinder15 d. Thus, when a user pushes the cylinder 15 c into the hole 15 l theheads of the arrows engage under the lip 15 i ledge locking the deviceholder 15 a to the support surface 15 b. The tooth 15 f then engages thedepressions 15 j about the inner surface of the cylinder above the ledgeproviding a locking mechanism until a user provides sufficient force toovercome the force provided by the raised portions 15 k that give way asthey are made of plastic material.

FIG. 6A is a perspective view of a modified sailor palm device 16 havinga zipper and clear working screen in an embodiment. The modified sailorpalm device has a central flat piece of rectangular material composed ofone or more materials arranged in a sandwich sewn and or glued at itsperiphery thereby permitting its comfortable use on the body. In thisparticular drawing there is shown a top and bottom sewn or gluedcomponents forming a two layer visible sandwich; the first has integral(or attached) rear strips 16 i along with a central large top main stripand the second has a bottom large main strip and two integral (orattached) forward strips 16 i; this can be changed with the rear stripson the bottom main strip and the forward strips on the top main strip orboth forward and rear strips on one of the top or bottom main strip. Thesandwich or layered package is made from materials such as leather,neoprene, cotton, foam, latex, rubber or similar material; these mayalso be optionally included within the two large main strips so as toprovide cushioning and rotation support. The bottom main strip extendsback under the portion of material of the top main strip between theright and left lateral strips. Further, the top and or bottom mainstrips can extend beyond the forward set of velcro strips and a forwardstrengthener like that in FIG. 9C can be arranged there as well forrotation support.

The modified sailor palm core (central large top and bottom main strips)has two sets of corresponding velcro strips; two rear and two forwardstrips of material 16 i either integral with it (as taught above) orattached to it by sewing. Each of these strips has velcro or buttonattachments arranged so as to permit there engagement when thecorresponding strip is brought into proximity about the forward part ofthe hand or wrist of a user thereby locking it into place. In otherwords, one strip 16 i has a velcro hooks on top and a corresponding onehas velcro loops underneath so as to engage the strips together.

The following describes the electronic device container atop the core ofthe device; a clear piece of transparent material 16 a that works withan electronic device touch screen is sewn into a top piece ofrectangular material such as nylon having an opening for this purpose.One end of this top piece of material is sewn to another small piece ofend material 16 c that is also sewn to two small wing materials 16 bthat are also sewn to the top piece of rectangular material. A first Ushaped piece of material 16 e is sewn to the top piece of rectangularmaterial and to the two small wing materials 16 b and to the bottom Ushaped piece of material 16 f. This material 16 f is sewn to the centrallarge top main strip of material forming the core of the device; thesmall wings 16 b and end material 16 is also sewn to the central largetop main strip of material. A zipper is sewn into the top and bottomlips of the U shaped material for closing the device.

FIG. 6B is a perspective view of a modified sailor palm device 17 havinga magnetic flap and clear working screen in an embodiment. The modifiedsailor palm device has a central flat piece of material composed of oneor more materials arranged in a sandwich sewn and or glued at itsperiphery thereby permitting its comfortable use on the body. In thisparticular drawing there is shown a top and bottom components forming atwo layer visible sandwich; the first has integral rear strips 17 ialong with a central large top main strip and the second has a bottomlarge main strip and two integral forward strips 17 i. The sandwich isarranged from materials such as leather, neoprene, cotton, foam, latex,rubber or similar material; these may also be optionally included withinthe two large main strips so as to provide cushioning and rotationsupport.

The modified sailor palm core (central large top and bottom main strips)has two sets of corresponding velcro strips; two rear and two forwardstrips of material 17 i either integral with it or attached to it bysewing. Each of these strips has velcro or button attachments arrangedso as to permit there engagement when the corresponding strip is broughtinto proximity about the forward part of the hand or wrist of a userthereby locking it into place. In other words, one strip 17 i has avelcro hooks on top and a corresponding one has velcro loops underneathso as to engage the strips together.

The following describes the electronic device container atop the core ofthe device; a clear piece of transparent material 17 a that works withan electronic device touch screen is sewn into a top piece ofrectangular material 17 d such as nylon having an opening for thispurpose; the material 17 d is sewn to the walls 17 b on either side. Oneend of this top piece of material 17 d is sewn to another small piece ofend material 17 e that is also sewn to two larger vertical wingmaterials 17 b that are also sewn to the top piece of rectangularmaterial 17 d along its edge; thus, is formed a box for insertion of anelectronic device. A flap is formed in two sections 17 f, 17 g having asewing line between them whilst an edge of section 17 f is sewn to thetop of the core of the palm device thereby covering an opening on theleft side of the container. Also, a magnet or magnetically affectedmaterial is sewn into the flap 17 g; this for attracting a correspondingmagnet or magnetically affected material sewn into the top of therectangular piece of material 17 d before the transparent material 17 a;this is to the left under the flap 17 g but not shown.

FIG. 6C is a side view of a modified sailor palm device having roundfinger holes in an embodiment. A sailor palm modified device 18 has twosets of strips of material at the forward and back portion and sewn orintegral with a main core of the device having an electronic deviceholder there atop. A set of one or more finger rounds 18 a are attachedat the top of the finger round by sewing or glue to a forward portion ofthe main body 18. The finger round 18 a is a strip of material sewn endto end and glued or sewn to the main body forward of or aligned with theforward strips of material having attachment mechanisms like velcro orbuttons.

FIG. 6D is a front view of a sailor palm device having round fingerholes in an embodiment. A sailor palm modified device 18 has two sets ofstrips of material at the forward and back portion and sewn or integralwith a main core of the device having an electronic device holder thereatop. A set of one or more finger rounds 18 a are attached at the top ofthe finger round by sewing or glue to a forward portion of the main body18. The finger round 18 a is a strip of material sewn end to end andglued or sewn to the main body forward of or aligned with the forwardstrips of material having attachment mechanisms like velcro or buttons.

FIG. 7A is a perspective view of a sailor palm device having a holderinserted in a cover with a zipper 20 a and clear working screen in anembodiment. This figure brings a rotational aspect to the teachings ofFIG. 6A. A rotational device is embedded in a sandwich of materials inthe core of the modified sailor palm device (central large top andbottom main strips) and cushioned with one or more other layers ofmaterial above, below, or around the rotational device so as to securethe rotational device in the sandwich between the central large top andbottom main strips. Typically, at least a top inner and a bottom innerlayer composed of materials such as rubber, neoprene, lycra, foam,leather, nylon, cotton and others as necessary above and below therotations device are sewn together about their periphery to sailor palmdevice.

The figure shows how a rotational cylinder 19 a extends from the bottomof the covered plastic holder through a hole in the cover and on througha hole in the central large main top strip into the sandwich between thecentral large top and bottom main strips where it meets up with therotational device of for example FIG. 4-5, 8, 10.

Finally a sailor palm triangle is sewn to the right side of the top andor bottom large main strips and or to the right rear strip of the topmain strip; the triangle has space for a hole for entry of a thumbtherein. A finger round such as in FIG. 6C-6D can also be attached tothis hole for insertion of a thumb. Both the triangle and the round areoptional components that help stop unwanted rotation of the devicearound the hand.

FIG. 7B is a perspective view of a sailor palm device having a magneticflap and clear working screen in an embodiment; this device has a holder20 b inserted in a cover with a magnetic flap and clear working screenin an embodiment. This figure brings a rotational aspect to theteachings of FIG. 6B. A rotational device is embedded in a sandwich ofmaterials in the core of the modified sailor palm device (central largetop and bottom main strips) and cushioned with one or more other layersof material above, below, or around the rotational device so as tosecure the rotational device in the sandwich between the central largetop and bottom main strips. Typically, at least a top inner and a bottominner layer composed of materials such as rubber, neoprene, lycra, foam,leather, nylon, cotton and others as necessary above and below therotations device are sewn together about their periphery to sailor palmdevice.

The figure shows how a rotational cylinder 19 b extends from the bottomof the covered plastic holder through a hole in the cover on through ahole in the central large main strip into the sandwich between thecentral large top and bottom main strips where it meets up with therotational device of for example FIG. 4-5, 8, 10. Finally a sailor palmtriangle is sewn to the right side of the top and or bottom large mainstrips and or to the right rear strip of the top main strip; thetriangle has space for a hole for entry of a thumb therein. A fingerround such as in FIG. 6C-6D can also be attached to this hole forinsertion of a thumb. Both the triangle and the round are optionalcomponents that help stop unwanted rotation of the device around thehand.

FIG. 7C is a bottoms up view of the underside of a sailor palm covershowing how it is removable in an embodiment. The cover comes in variousshapes; for example, if it is a zipper cover then it has essentially allthe main components of FIG. 6A if a flap cover then it has all the maincomponents of FIG. 6B; additionally, it has an underside 21 that is sewnto the edges of the corresponding materials of that described aboveinstead of sewing those to the top large main strip. This underside 21has a central hole 21 a having a narrow channel permitting a user toslide the cover off. A strip of nylon material 21 c having velcro hooksor loops attached to one side of the underside 21 about the narrowchannel and a corresponding velcro piece 21 d on the other side. Thus, auser can detach these so as to remove the cover for easy use or reinsertthe mobile holder into the cover. The cover itself is in close proximityto the plastic holder inside so that it does not need reinforcement inmoving around; however, if necessary a set of corresponding velcropieces is adhesively applied one on the inside of the cover and one tothe plastic holder so that the cover will not move around about theholder. Further, if you don't want it removable the cover can be sewncompletely at the narrow channel or glued together at that point toprevent motion.

FIG. 8A shows a rectangular piece of plastic 22 having various featuresthat are used to engage a rotating cell phone device within it. A flatplate of material 22 h forms the main working surface for the rotationaldevice to be attached thereto. Several linear perforations 22 a areplaced in the left and right flat portions for sewing to the pieces ofmaterial making the sailor palm material mitten. From the right thesurface of plastic slopes upwards eventually forming a semi-circularshape 22 e having a depression or mouth therein for engaging therotational device 23 c. The top and bottom sides of the device aregenerally trapezoidal however they end in sloping curves to the rightand left thereof.

Two rectangular or square depressions 22 b in the bottom of the flatportion of material 22 h forming snap button engagement zones having asnap button slot 22 c.

A snap button 22 d having an end portion and an angled button portion ispositioned in the snap button slot 22 c with the end portion in the snapbutton slot 22 c; the location of the depressions 22 b are at the 6 and9 o'clock positions with the raised protrusion 22 f in the center in a‘to scale’ drawing in optimal positioning. Two raised protrusions 22 ghave a curved mouth therein for engaging a rotational device 23 c. Acircular raised protrusion 22 f in the center or approximately thereinhas an opening in one side for forcing the bottom of a cylinder on therotation device therein. Thus, a user places the main rotator 23 c intothe depression of the semicircular shape 22 e and the other end into thecurved mouths of the raised protrusions 22 g as well as the bottomcylinder 23 d into the circular raised protrusion 22 f for permittingrotation of the entire assembly. It should be understood that theorientation of the device can be changed regarding 22 e the semicircularmouth or depression being at the right of the drawing along the curve ofthe raised protrusions 22 g; whilst the raised protrusions 22 g are atthe left along the curve of 22 e and the circular raised protrusion 22 fopening is oriented in the center of the figure.

FIG. 8B shows the rotation device 23 made of an integral piece ofplastic having a cell phone holder 23 e connected to the main circularrotator 23 c through a circular cylinder 23 f. A small bottom cylinder23 d extends downwards from the main rotator 23 c. A single hole isprovided on the rotator 23 c at location 23 a that engages a first snapbutton 22 d; as the rotator is rotated it gets to position above theother snap button 22 d.

FIG. 8C shows a top view of the rotation device 23 having a electronicdevice holder 23 e there atop though not all aspects of the holder 23 eare shown for simplicity; it is assumed that various raised protrusionsare included therein for holding it in the holder. It should beunderstood that the main rotator extends to one side and outwards of theholder when viewed from above so as to permit a user to depress the snapbutton thereby allowing rotation of the device. This further permits auser to stabilize the electronic device on the back of the palm of thehand and shoot a picture therefrom. The snap button 22 d head sitting in22 b extends through a hole in the rotator 23 a locking it in place. Asdiscussed a user has to press the aforementioned button so as to permitrotation. Another snap button 22 d is positioned so as to engage thedevice when it is rotated into another position. FIG. 8D shows that themain rotator 23 c is connected to the holder 23 e through a cylinder 23f. At the bottom of the main rotator is a support cylinder 23 d that isinserted in 22 f for stability.

FIG. 9A shows a modified sailor palm device having a side strengthenerin an embodiment. A strengthener 24 is an optional device inserted inoptional layer wings sewn together that are integral extensions from orattachments to the top and or bottom large main strips; these have thetop and bottom large main strips further connected to both the forwardand back set of strips until the end of the strengthener section so thatthey can wrap around the edges of the hand. The strengthener 24 is shownwith a top large main strip of the device removed in an integral typeconfiguration. The main rotation support surface for example FIG. 1G,FIG. 5D 15, FIG. 8A 22 etc is extended by the integral inclusiontherewith of a strip of plastic or ‘strengthener’ 24 made of a set ofstrips of plastic alternating between a thick wide strip 24 b and athinner narrow strip 24 c. The alteration of the height thick to thinthick to thin permits the strip 24 to be flexed about edges of the usershand. As such, it provides a rotational support so as to preventexcessive motion of the base or support surface when the user rotatesthe electronic device. The sequence of wide strips can also be offsetforward and backwards or not offset (not shown). A set of cutouts in thestrip are used to sew or glue the strip 24 to the bottom and top largemain strip core; finally, the top large main strip is affixed by sewingand or glue to the support surface integral with the the strengthenerthat is likewise to the bottom large main strip completing the device.FIG. 9B shows a closeup of the strengthener from FIG. 9A; an alternateembodiment has a piece of material having a thumb hole (not shown) thatis attached to the back strap, top and or bottom main strips and to theexternal materials of the strengthening portion of the device such as inFIG. 9D.

FIG. 9C shows a closeup of a portion of the back portion of anotherstrengthener in an embodiment. This strengthener 25 is an extension fromthe support surface for example, main rotation support surface FIG. 1G,FIG. 5D, 15 etc; it is used to strengthen the space between the top andbottom large main strip between the back side velcro strips where sewingand or glue holds this plastic protrusion for protection from overrotation of the device. Corresponding portions of material from the topand bottom large main strips are affixed above and below thestrengthener using glue or sewing in the hole therein. FIG. 9D shows asailor palm device having a side strengthener in an embodiment wherethere is a square piece of material having a thumb hole attached (sewnor glued) between the end of the strengthener section and the rear rightstrip and the sides of the top and bottom large main strips.

FIG. 10A is a side view of a modified version of the device in FIG.5A-5E. In this version, a hole 26 a in the down cylinder of theelectronic holder has a spring actuated device 26 c that extends intherethrough and through a hole 26 b in the cylinder extending upwardsfrom the support surface. The support surface hole 26 b is larger as thetop device travels rotationally it must stay stationary on a user'shand; this support surface hole 26 b only extends around a portion ofthe cylinder it is in. The top of the actuated device 26 c has a hole 26e in it body for attachment of a spring that is permanently attached tothis hole 26 e and to a raised protrusion on the inside of cylinderhaving hole 26 a. The cylinder having the hole 26 a has its bottom facehollowed out to permit entry of a spring for mounting on the device 26c.

FIG. 10B is a closeup view of an actuation device showing how an Lshaped device on the actuation device 26 c engages depressions on theinside of the cylinder of the support surface. FIG. 10C shows a closeupview of an actuation device having a slightly angled L shaped member. Itshould be understood that to insert the L shaped device one simplyinserts the opposite side of the device 26 c into a hole in the bottomof the support surface directly under the cylinder sliding the device 26c into the hole 26 b until the L shaped device engages a depression.Then bending 26 c whilst engaging the holder cylinder from above downinto the cylinder of the support surface. Afterwards the spring isattached appropriately. FIG. 10D shows a side view of the actuationdevice within the cylinder of the holder and within the cylinder of thesupport surface along with a spring device.

FIG. 11A shows a conceptual view of the bottom of a holder having arectangular center cutout on the holder for permitting picture takingwhilst attached to the palm of a user's hand thereby providing a muchmore stable surface than jittery fingers because you are using yourupper arm muscles to stabilize it with a relatively flat surface, i.e.,the back of your hand. The various features of the holder of anelectronic device are not all shown for simplicity focusing rather onthe position of the cutout on the back of holder. FIG. 11B shows abottom of an electronic device holder having a cutout located on oneside of the holder or it can just as easily be located on the otherside.

FIG. 11C shows a process of making a holder that facilitates a usertaking pictures whilst having the ability to be stabilized on the hand.First the location of camera is determined and a cutout is made at thebottom surface of the holder so as to permit the camera to receiveimagery from the surroundings. This can be an average location overvarious types of cameras or a specific determination for one type ofelectronic device. Then, a determination is made as to the position ofthe cylinder for clearance of incoming imagery to pass the surface ofthe hand about different hand sizes and corresponding sailor palm sizes.Also, the covers taught herein as an optional step are optionally madewith cutouts to permit taking pictures whilst they are on the holder.FIG. 11D shows a view of the user taking a picture through a hole in theholder using the back of palm as a stabilizer after rotating it intoposition.

FIG. 12A shows a rotatable holder perspective showing various dooropening features in an embodiment. The top of a rotatable device holder27 has two round depressions 27 g one on both side walls having anopening there between for insertion of electronic device; these are usedto insert two round protrusions 27 b of a door 27 a therein. Further,the door 27 a has an arrow headed lock 27 c that engages a crossbar atthe top of the device between the two sides that have an opening therebetween for insertion of the electronic device. Finally, there arevarious plastic flat pieces 27 h making up the top portion of the deviceto prevent the exiting of the electronic device therethrough and a backwindow for a camera to fire through. A hole is shown for use of thecamera on the back floor of the device.

FIG. 12B shows an opening device for the door of FIG. 12A. A flatportion 27 f extends upwards perpendicular to the door 27 a followed byan angled portion 27 e and a portion parallel to the door then a portion27 d parallel to 27 f. Thus, a user needs to press 27 d to disengage todoor 27 a from the crossbar between the two sides. FIG. 12C shows analternative door opening feature. Here instead of two round protrusionsa door has two slots 28 b or depressions in the flat surface making upthe bottom portion of a lip formed at the opening between the two sidewalls. FIG. 12D shows an alternative door opening feature used with thatof FIG. 12C. Here two protrusions 28 a slide into the slot 28 b forengaging the front door. FIG. 12 E shows a top view of a door 29 havingthe two round protrusions feature but also two side attaching arrowheadlocks 29 a used with FIG. 12F.

FIG. 12F shows a side view of a door opening feature. The body of thedoor 29 is extended into a vertical integral portion, a slanted portion29 c that bends back parallel to the door 29 and to a perpendicularportion 29 b that needs to be pressed by a user to disengage a door froma suitable depression, bar in both side walls at the entrance of theholder. FIG. 12G shows a top view of a door in another embodiment thatuses protrusions to the lip between the sides in conjunction with anarrowhead lock on either side of the door. FIG. 12H shows a crosssection side strengthener wing sewn into a sailor palm device. FIG. 12Ishows a cross section of the strengtheners sewn into both side edges 30a of a sailor palm device core 30 for spreading around the edges of ausers hand for rotation protection. FIG. 12J shows a set of raisedprotrusions on the bottom plate or floor after the camera hole butbefore the door or in lieu of the door that block exit from the theholder 27. This can also optionally be used in combination with a formfitting case designed for individual electronic devices thereby lockingit in place.

The above-described embodiments are merely exemplary illustrations ofimplementations set forth for a clear understanding of the principles ofthe invention. Many variations, combinations, modifications orequivalents may be substituted for elements thereof without departingfrom the scope of the invention. Therefore, it is intended that theinvention not be limited to the particular embodiments disclosed as thebest mode contemplated for carrying out this invention, but that theinvention will include all the embodiments falling within the scope ofthe appended claims.

I claim:
 1. An electronic device carrier comprising: a first main strip of material having a first strip of material attached to a right forward portion thereof a second strip of material attached to a left forward portion thereof.
 2. The electronic device carrier of claim 1, further comprising: a second main strip of material attached to the first one having a third strip of material attached to a back right portion of the second main strip of material thereof and a fourth strip of material attached to a back left portion of the second main strip of material thereof
 3. The electronic device carrier of claim 2, further comprising: a rotational device embedded between the first and second main strips of material.
 4. The electronic device carrier of claim 3, further comprising: a electronic device holder attached to the rotational device through a device integral with the rotational device.
 5. The electronic device carrier of claim 3, wherein the rotational device comprises: a spring activated device.
 6. The electronic device carrier of claim 3, wherein the rotational device comprises: a tooth and groove device.
 7. The electronic device carrier of claim 3, wherein the rotational device comprises: a disk snap button activated device.
 8. The electronic device carrier of claim 1, wherein the first main strip of material has a strengthener attached thereto.
 9. The electronic device carrier of claim 2, wherein the second main strip of material has a strengthener attached thereto.
 10. The electronic device carrier of claim 8, wherein the first main strip of material has a piece of material having a thumb opening before the strengthener.
 11. The electronic device carrier of claim 9, wherein the second main strip of material has a piece of material attached having a thumb opening before the strengthener.
 12. The electronic device carrier of claim 1, further comprising: a piece of material having a thumb hole attached to the first main piece of material.
 13. The electronic device carrier of claim 2, further comprising: a piece of material having a thumb hole attached to the second main piece of material.
 14. An electronic device portability unit comprising: an upper slab of material a lower slab of material attached to the upper slab of material forming a layered package a set of two front and a set of two back strips attachment strips where the set of two front strips is attached one to a right lateral forward portion and one to a left lateral forward portion of the layered package and the set of two back strips is attached one to a right lateral back portion and one to a left lateral back portion of the layered package.
 15. The electronic device portability unit of claim 14, further comprising: a rotational device inserted in the layered package.
 16. The electronic device portability unit of claim 14, further comprising: a piece of material having a thumb hole attached to a side of the layered package.
 17. The electronic device portability unit of claim 14, further comprising: a set of materials having a side strengthener embedded therein attached to the layered package.
 18. The electronic device portability unit of claim 14, further comprising: a set of materials having a back strengthener embedded therein attached to a portion between the upper and the lower slabs of material making up the layered package.
 19. A rotational hand attachment device comprising: a layered rear palm support device having two forward and two rear attachment materials attached thereto and a rotational device embedded within the layered rear palm support device.
 20. The rotational hand attachment device of claim 19, further comprising: a material piece having a thumb hole therein attached to the layered rear palm support device and one of the forward attachment materials and to one of the rear attachment materials. 